assessing the impact of forest fires in maritime pine stands
DESCRIPTION
[email protected]. The development of post-fire tree survival models ( Pinus pinaster ) that may be appropriate for forest planning purposes in Portugal. Two models are developed: a stand-level model to estimate the proportion of trees that will die as a consequence of a fire event and - PowerPoint PPT PresentationTRANSCRIPT
ASSESSING THE IMPACT OF FOREST FIRES IN ASSESSING THE IMPACT OF FOREST FIRES IN MARITIME PINE STANDSMARITIME PINE STANDS
ASSESSING THE IMPACT OF FOREST FIRES IN ASSESSING THE IMPACT OF FOREST FIRES IN MARITIME PINE STANDSMARITIME PINE STANDS
Botequim, B1., Borges, J. G. 1, Garcia-Gonzalo, J. 1, Marques S. 1, Oliveira, M.M.2, Silva, A.1, Soares, P.1, Tomé M. 1
1 Centro de Estudos Florestais, Instituto Superior de Agronomia, Technical University of Lisbon, Portugal
2 Universidade de Évora, Portugal
hdom
d1,1658
e1hdom0,0254
e1000
N0,02110,079510,0795h
d
dh
0222,00643,1
I. Objectives
II. Materials and methods
References: Tomé, M., Meyer, A., Ramos, T., Barreiro, S., Faias, S.P., Cortiçada, A., (2007). Relações hipsométricas e equações de diâmetro da copa desenvolvidas no âmbito do tratamento dos dados do Inventário Florestal Nacional 2005-2006. Publicações GIMREF. RT 3/2007. Universidade Técnica de Lisboa. Instituto Superior de Agronomia. Centro de Estudos Florestais. Lisboa
Acknowledgments:
This work was supported by project PTDC\AGR-CFL/64146/2006 funded by the Portuguese Science Foundation.
a b
Figure 3a. Burnt plots: burnt stump (a); burnt Pinus pinaster stands (b)
III. Results
Regression parameters were estimated as R2= .23 and AIC = 232.6.
Significant covariates include fire severity, number of trees, dbh and height
(Figure 5)
Figure 5. Regression results
Data acquisition encompassed both the measurement of biometric
variables (e.g. height, diameter at breast height, burnt
stump height, burnt canopy height, degree of stump destruction,
fire damage) and the characterization of the plot (e.g. elevation,
aspect, slope, presence of soil erosion, shrubs species (Figure 2).
Figure 2 . Field forms and terrain guide
Figure 4. Estimating the diameter at breast height of burnt trees from stumps
Statistical analysis aimed at explaining the relative importance of
explanatory variables in the response variable, positive
percentage of dead trees in a burned plot (p). Regression analysis
is an adequate approach to address this objective. Several
distributions were tested to check the best fit for p. In this poster
we present results for the best fit where the predicted variable (y)
was the arcsin transformation of the proportion of dead trees:
arcsin(SQRT(p)) ~N(a2; b2).
The approach was implemented using the software R version 2.9.
(eq II)
(eq I)
Figure 1. Data acquisition in national forest inventory (NFI) plots. The map at left shows the NFI plots (≈12200). The top-right maps display the 2007 fire perimeters and the 78 burnt NFI plots. The bottom-right maps display the 2008 fire perimeters and the 66 burnt NFI plots
In most cases, original NFI data did not correspond to the actual
forest cover in the plots. Thus a reverse engineering approach
had to be designed to re-built the forest before the fire. In the
case of plots with standing burned trees, both pre-fire diameter
at breast height and height were estimated using equations
developed by Tomé et al, 2007 - (equations I and II). In other
cases, when at inventory date, the burnt trees had been
harvested, we measured the stump diameter from burned trees
and an equation was ajusted to predict the diameter at breast
height (Figure 4).
Figure 3b. Burnt plots: pine stand burnt with low severity (c); high severity damage in a pinus stand (d).
The development of post-fire tree survival models (Pinus pinaster) that may be appropriate for forest planning purposes in Portugal. Two
models are developed:
a)a stand-level model to estimate the proportion of trees that will die as a consequence of a fire event and
b)a tree-level model for the probability to survive a forest fire.
Both models are based on easily measurable forest characteristics (e.g. height, diameter at breast height) and stand topographical
parameters (altitude, slope and aspect). The models are instrumental for the forest manager to predict the damage impact of wildfires
according to stand structure and species composition.
d
The Maritime Pine inventory data was collected in burnt plots
located in fire perimeters larger than 5 ha corresponding to wildfires
that occurred between 2006 and 2008 (Figure 1).
c
Signif. codes: 0 ‘***’ 0.001 ‘**’ 0.01 ‘*’ 0.05 ‘.’
0.1 ‘ ’ 1
Coefficients and significance